GR20200100217A - Thermally insulating corner for the front of frames - Google Patents

Abstract

The invention relates to a thermally insulating corner practicable for the front of the frames; it is made of expanded polystyrene, extruded polystyrene, lightweight concrete with expanded polystyrene granules, foamed concrete, polyurethane or stone wool. Said thermal corner has two legs (1), (2) which are perpendicular to each other and placed inside the corner of the frame, and a front element that extends vertically in front of the two legs of the corner and covers the wall surface. Thus, the use of multiple pieces and the creation of joints in places where there is intense stress are avoided.

Description

DESCRIPTION

THERMAL FAUCET CORNER

THE FIELD OF TECHNOLOGY

The invention refers to the field of construction techniques and more specifically to the field of insulation or other protection of buildings and even more specifically to the individual insulation elements of a building. In particular, it does not refer to a thermal facade angle.

THE HISTORY OF THE INVENTION

The thermal face angle disclosed in the present invention has not been disclosed in the prior art.

Insulation in buildings provides resistance to heat flow. The more heat flow resistance the insulation provides, the greater the reduction in heating and cooling costs. The right way to insulate the building further improves comfort and living conditions. Thermal insulation is the retardation of heat transfer between objects, which are in thermal contact or at a distance capable of being affected by radiation. Heat is the energy that is transferred due to temperature difference and transferred from a body of higher temperature to another of lower temperature. In the case of buildings heat tends to go from lower to higher layers and cold air descends. The aim of the thermal insulation materials of a building is to slow down the thermal flow of bodies or spaces that are at a different temperature. Thermal insulation blocks or reflects energy rather than absorbing energy.

A subcategory of thermal insulation is external thermal insulation in which the insulation is not interrupted at the points of connection of the different structural elements. External thermal insulation or thermal facade, as it is also called, has been applied in western and central Europe since the 1960s and offers particular flexibility in construction, as the thermal insulation material is placed as the last layer of construction on the external surface of the building. Essentially, it works like a protective mantle to prevent the appearance of the building from being altered by extreme temperature conditions and adverse climatic factors. In addition, with the thermal facade, in addition to the strong resistance of the building, its waterproofing is also achieved. Finally, in this way thermal losses from the side walls are limited and energy is saved. It is also the most suitable and the most effective solution for the retrospective thermal insulation of old structures. The materials used for external thermal insulation are expanded polystyrene, extruded polystyrene and rockwool. Expanded polystyrene is the most suitable and widespread material that is the best possible solution for old and new constructions.

Although the advantages of the thermal facade are significant, since it can be applied both to existing buildings and to those under construction, while at the same time protecting the building from the outside, upgrading it energetically and visually, there are also some disadvantages that do not allow its full acceptance as the ideal way of insulation.

First, there are economic criteria that sometimes make the solution of an external thermal insulation unprofitable and more expensive than the classic insulation of a building. In many buildings, external thermal insulation requires the use of scaffolding, which increases the cost of the process, while there are also areas or buildings where external intervention on the facade is not allowed and therefore the choice of thermal facade is prohibited. However, there are also some general technical disadvantages in the thermal facade solution. These lie in the corners of doors and windows, where the installation of a thermal facade requires the careful combination of at least three separate pieces, which must be harmoniously combined. Unfortunately this is usually not possible, resulting in poor workmanship and potential holes appearing in those places. The problem is intensified due to the existence of many joints, but also the pressures and burdens that those points receive, from the opening and closing of doors and windows.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing a thermal facing corner.

A further object of the present invention is to provide a thermal facing corner, consisting of a single piece that replaces the numerous pieces used to date.

A further object of the present invention is to provide a thermal facade corner, manufactured from any suitable material known today in the field of thermal insulation.

It is a further object of the invention to present a thermal facing piece for corners, which has no joints and which does not require joints.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings in which it is illustrated in an illustrative non-limiting manner.

Figure 1 shows a perspective view of the thermoface corner of the present invention.

Figure 2 shows a 3D perspective view of the inner side of the thermoface corner.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings, we will describe indicative applications of the thermal facade corner so that the advantages and the method of its application become apparent.

The thermal facade corner of the invention consists of a single piece, which has two mutually perpendicular legs (1), (2), Fig. 1, which form a right angle and a facade element (3). The facade element (3) occupies the surface that develops vertically and outside the legs (1), (2) of the right angle. Depending on the opening in which the relative placement will be made, the corresponding rotation of the piece is made to ensure a correct fit. So if the corner is to be placed at the top right of an opening, e.g. a window, leg (1), Fig. 2, covers the upper side of the frame and leg (2) the side perpendicular to the ground. Accordingly, if it is to be placed on the upper left side of an opening, the piece is rotated so that leg (1) covers the side perpendicular to the ground, while leg (2) covers the upper side of the frame. In this way, the placement of separate pieces and the creation of joints are avoided at that critical point. Depending on the placement of the piece, the element of the facade (3) is brought into contact with the wall and the thermal facade corner is glued and fixed in the appropriate and up to now known ways.

Indicative, but not limiting, the legs (1), (2) have dimensions of 20 centimeters on each side, so that the largest percentage of frames are covered. And the thickness of the thermal facade corner varies according to construction requirements, but never less than 2 cm. The construction of the corner can be made from all the materials known to date, such as expanded polystyrene, extruded polystyrene, rockwool, foamed concrete, polyurethane and lightweight concrete with expanded polystyrene granules.

It should be noted at this point that the description of the invention was made with reference to indicative application examples to which it is not limited. Obviously, any change or modification in anything related to shape, dimensions, morphology, construction materials used, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the purposes and goals of the present invention.

Claims (1)

1. Thermal facade corner, characterized by the fact that it consists of two mutually perpendicular legs (1), (2) and a facade element (3) perpendicular to the sides of the right angle of the legs (1) and (2), where the vertical between them legs (1), (2), are placed on the inner side of the frame corner and the front element (3) covers the surface outside the right angle.